src/aod_sketch_c_adapter.cpp - datasketches-postgresql - Git at Google

 /*
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License.  You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied.  See the License for the
  * specific language governing permissions and limitations
  * under the License.
  */

 #include "aod_sketch_c_adapter.h"
 #include "allocator.h"
 #include "postgres_h_substitute.h"
 #include "kll_float_sketch_c_adapter.h"

 #include <array_of_doubles_sketch.hpp>
 #include <array_of_doubles_union.hpp>
 #include <array_of_doubles_intersection.hpp>
 #include <array_of_doubles_a_not_b.hpp>

 #include <boost/accumulators/accumulators.hpp>
 #include <boost/accumulators/statistics/stats.hpp>
 #include <boost/accumulators/statistics/mean.hpp>
 #include <boost/accumulators/statistics/variance.hpp>
 #include <boost/math/distributions/students_t.hpp>

 using update_aod_sketch_pg = datasketches::update_array_of_doubles_sketch_alloc<palloc_allocator<double>>;
 using compact_aod_sketch_pg = datasketches::compact_array_of_doubles_sketch_alloc<palloc_allocator<double>>;
 using aod_union_pg = datasketches::array_of_doubles_union_alloc<palloc_allocator<double>>;
 // using the union policy in the intersection since this is how it is done in Druid
 using aod_intersection_pg = datasketches::array_of_doubles_intersection<datasketches::array_of_doubles_union_policy_alloc<palloc_allocator<double>>, palloc_allocator<double>>;
 using aod_a_not_b_pg = datasketches::array_of_doubles_a_not_b_alloc<palloc_allocator<double>>;

 std::ostream& operator<<(std::ostream& os, const datasketches::aod<palloc_allocator<double>>& v) {
   os << "(";
   for (size_t i = 0; i < v.size(); ++i) {
     if (i != 0) os << ", ";
     os << v[i];
   }
   os << ")";
   return os;
 }

 void* aod_sketch_new(unsigned num_values) {
   try {
     return new (palloc(sizeof(update_aod_sketch_pg))) update_aod_sketch_pg(update_aod_sketch_pg::builder(num_values).build());
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void* aod_sketch_new_lgk(unsigned num_values, unsigned lg_k) {
   try {
     return new (palloc(sizeof(update_aod_sketch_pg))) update_aod_sketch_pg(update_aod_sketch_pg::builder(num_values).set_lg_k(lg_k).build());
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void* aod_sketch_new_lgk_p(unsigned num_values, unsigned lg_k, float p) {
   try {
     return new (palloc(sizeof(update_aod_sketch_pg))) update_aod_sketch_pg(update_aod_sketch_pg::builder(num_values).set_lg_k(lg_k).set_p(p).build());
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void update_aod_sketch_delete(void* sketchptr) {
   try {
     static_cast<update_aod_sketch_pg*>(sketchptr)->~update_aod_sketch_pg();
     pfree(sketchptr);
   } catch (std::exception& e) {
     pg_error(e.what());
   }
 }

 void compact_aod_sketch_delete(void* sketchptr) {
   try {
     static_cast<compact_aod_sketch_pg*>(sketchptr)->~compact_aod_sketch_pg();
     pfree(sketchptr);
   } catch (std::exception& e) {
     pg_error(e.what());
   }
 }

 void aod_sketch_update(void* sketchptr, const void* data, unsigned length, const double* values) {
   try {
     static_cast<update_aod_sketch_pg*>(sketchptr)->update(data, length, values);
   } catch (std::exception& e) {
     pg_error(e.what());
   }
 }

 void* aod_sketch_compact(void* sketchptr) {
   try {
     auto newptr = new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(static_cast<update_aod_sketch_pg*>(sketchptr)->compact());
     static_cast<update_aod_sketch_pg*>(sketchptr)->~update_aod_sketch_pg();
     pfree(sketchptr);
     return newptr;
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 double update_aod_sketch_get_estimate(const void* sketchptr) {
   try {
     return static_cast<const update_aod_sketch_pg*>(sketchptr)->get_estimate();
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 double compact_aod_sketch_get_estimate(const void* sketchptr) {
   try {
     return static_cast<const compact_aod_sketch_pg*>(sketchptr)->get_estimate();
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 Datum* aod_sketch_get_estimate_and_bounds(const void* sketchptr, unsigned num_std_devs) {
   try {
     Datum* est_and_bounds = (Datum*) palloc(sizeof(Datum) * 3);
     est_and_bounds[0] = pg_float8_get_datum(static_cast<const compact_aod_sketch_pg*>(sketchptr)->get_estimate());
     est_and_bounds[1] = pg_float8_get_datum(static_cast<const compact_aod_sketch_pg*>(sketchptr)->get_lower_bound(num_std_devs));
     est_and_bounds[2] = pg_float8_get_datum(static_cast<const compact_aod_sketch_pg*>(sketchptr)->get_upper_bound(num_std_devs));
     return est_and_bounds;
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 char* aod_sketch_to_string(const void* sketchptr, bool print_entries) {
   try {
     auto str = static_cast<const compact_aod_sketch_pg*>(sketchptr)->to_string(print_entries);
     const size_t len = str.length() + 1;
     char* buffer = (char*) palloc(len);
     strncpy(buffer, str.c_str(), len);
     return buffer;
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 ptr_with_size aod_sketch_serialize(const void* sketchptr, unsigned header_size) {
   try {
     ptr_with_size p;
     auto bytes = new (palloc(sizeof(compact_aod_sketch_pg::vector_bytes))) compact_aod_sketch_pg::vector_bytes(
       static_cast<const compact_aod_sketch_pg*>(sketchptr)->serialize(header_size)
     );
     p.ptr = bytes->data();
     p.size = bytes->size();
     return p;
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void* aod_sketch_deserialize(const char* buffer, unsigned length) {
   try {
     return new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(compact_aod_sketch_pg::deserialize(buffer, length));
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void* aod_union_new(unsigned num_values) {
   try {
     return new (palloc(sizeof(aod_union_pg))) aod_union_pg(aod_union_pg::builder(num_values).build());
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void* aod_union_new_lgk(unsigned num_values, unsigned lg_k) {
   try {
     return new (palloc(sizeof(aod_union_pg))) aod_union_pg(aod_union_pg::builder(num_values).set_lg_k(lg_k).build());
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void aod_union_delete(void* unionptr) {
   try {
     static_cast<aod_union_pg*>(unionptr)->~aod_union_pg();
     pfree(unionptr);
   } catch (std::exception& e) {
     pg_error(e.what());
   }
 }

 void aod_union_update(void* unionptr, const void* sketchptr) {
   try {
     static_cast<aod_union_pg*>(unionptr)->update(std::move(*static_cast<const compact_aod_sketch_pg*>(sketchptr)));
   } catch (std::exception& e) {
     pg_error(e.what());
   }
 }

 void* aod_union_get_result(const void* unionptr) {
   try {
     return new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(static_cast<const aod_union_pg*>(unionptr)->get_result());
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void* aod_intersection_new(unsigned num_values) {
   try {
     return new (palloc(sizeof(aod_intersection_pg))) aod_intersection_pg(datasketches::DEFAULT_SEED, num_values);
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void aod_intersection_delete(void* interptr) {
   try {
     static_cast<aod_intersection_pg*>(interptr)->~aod_intersection_pg();
     pfree(interptr);
   } catch (std::exception& e) {
     pg_error(e.what());
   }
 }

 void aod_intersection_update(void* interptr, const void* sketchptr) {
   try {
     static_cast<aod_intersection_pg*>(interptr)->update(*static_cast<const compact_aod_sketch_pg*>(sketchptr));
   } catch (std::exception& e) {
     pg_error(e.what());
   }
 }

 void* aod_intersection_get_result(const void* interptr) {
   try {
     return new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(static_cast<const aod_intersection_pg*>(interptr)->get_result());
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void* aod_a_not_b(const void* sketchptr1, const void* sketchptr2) {
   try {
     aod_a_not_b_pg a_not_b;
     return new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(a_not_b.compute(
       *static_cast<const compact_aod_sketch_pg*>(sketchptr1),
       *static_cast<const compact_aod_sketch_pg*>(sketchptr2)
     ));
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 void* aod_sketch_to_kll_float_sketch(const void* sketchptr, unsigned column_index, unsigned k) {
   try {
     auto kllptr = kll_float_sketch_new(k);
     for (const auto& entry: *static_cast<const compact_aod_sketch_pg*>(sketchptr)) {
       kll_float_sketch_update(kllptr, entry.second[column_index]);
     }
     return kllptr;
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 double t_test_unequal_sd(double m1, double v1, uint64_t n1, double m2, double v2, uint64_t n2) {
   double degrees_of_freedom = v1 / n1 + v2 / n2;
   degrees_of_freedom *= degrees_of_freedom;
   double t1 = v1 / n1;
   t1 *= t1;
   t1 /= (n1 - 1);
   double t2 = v2 / n2;
   t2 *= t2;
   t2 /= (n2 - 1);
   degrees_of_freedom /= (t1 + t2);
   double t_stat = (m1 - m2) / sqrt(v1 / n1 + v2 / n2);
   using boost::math::students_t;
   students_t distribution(degrees_of_freedom);
   return 2 * cdf(complement(distribution, fabs(t_stat))); // double to match 2-sided test in Java (commons-math3)
 }

 Datum* aod_sketch_students_t_test(const void* sketchptr1, const void* sketchptr2, unsigned* arr_len_out) {
   try {
     const auto& sketch1 = *static_cast<const compact_aod_sketch_pg*>(sketchptr1);
     const auto& sketch2 = *static_cast<const compact_aod_sketch_pg*>(sketchptr2);
     if (sketch1.get_num_values() != sketch2.get_num_values()) pg_error("aod_sketch_students_t_test: number of values mismatch");
     unsigned num_values = sketch1.get_num_values();
     Datum* p_values = (Datum*) palloc(sizeof(Datum) * num_values);
     *arr_len_out = num_values;

     using namespace boost::accumulators;
     using Accum = accumulator_set<double, stats<tag::mean, tag::variance>>;

     std::vector<Accum, palloc_allocator<Accum>> stats1(num_values);
     for (const auto& entry: sketch1) {
       for (unsigned i = 0; i < num_values; ++i) stats1[i](entry.second[i]);
     }

     std::vector<Accum, palloc_allocator<Accum>> stats2(num_values);
     for (const auto& entry: sketch2) {
       for (unsigned i = 0; i < num_values; ++i) stats2[i](entry.second[i]);
     }

     for (unsigned i = 0; i < num_values; ++i) {
       p_values[i] = pg_float8_get_datum(t_test_unequal_sd(
         mean(stats1[i]), variance(stats1[i]), sketch1.get_num_retained(),
         mean(stats2[i]), variance(stats2[i]), sketch2.get_num_retained()
       ));
     }

     return p_values;
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 Datum* aod_sketch_to_means(const void* sketchptr, unsigned* arr_len_out) {
   try {
     const auto& sketch = *static_cast<const compact_aod_sketch_pg*>(sketchptr);
     unsigned num_values = sketch.get_num_values();
     Datum* means = (Datum*) palloc(sizeof(Datum) * num_values);
     *arr_len_out = num_values;

     using namespace boost::accumulators;
     using Accum = accumulator_set<double, stats<tag::mean>>;

     std::vector<Accum, palloc_allocator<Accum>> stats(num_values);
     for (const auto& entry: sketch) {
       for (unsigned i = 0; i < num_values; ++i) stats[i](entry.second[i]);
     }

     for (unsigned i = 0; i < num_values; ++i) {
       means[i] = pg_float8_get_datum(mean(stats[i]));
     }

     return means;
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }

 Datum* aod_sketch_to_variances(const void* sketchptr, unsigned* arr_len_out) {
   try {
     const auto& sketch = *static_cast<const compact_aod_sketch_pg*>(sketchptr);
     unsigned num_values = sketch.get_num_values();
     Datum* variances = (Datum*) palloc(sizeof(Datum) * num_values);
     *arr_len_out = num_values;

     using namespace boost::accumulators;
     using Accum = accumulator_set<double, stats<tag::variance>>;

     std::vector<Accum, palloc_allocator<Accum>> stats(num_values);
     for (const auto& entry: sketch) {
       for (unsigned i = 0; i < num_values; ++i) stats[i](entry.second[i]);
     }

     for (unsigned i = 0; i < num_values; ++i) {
       variances[i] = pg_float8_get_datum(variance(stats[i]));
     }

     return variances;
   } catch (std::exception& e) {
     pg_error(e.what());
   }
   pg_unreachable();
 }
	/*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*/

	#include "aod_sketch_c_adapter.h"
	#include "allocator.h"
	#include "postgres_h_substitute.h"
	#include "kll_float_sketch_c_adapter.h"

	#include <array_of_doubles_sketch.hpp>
	#include <array_of_doubles_union.hpp>
	#include <array_of_doubles_intersection.hpp>
	#include <array_of_doubles_a_not_b.hpp>

	#include <boost/accumulators/accumulators.hpp>
	#include <boost/accumulators/statistics/stats.hpp>
	#include <boost/accumulators/statistics/mean.hpp>
	#include <boost/accumulators/statistics/variance.hpp>
	#include <boost/math/distributions/students_t.hpp>

	using update_aod_sketch_pg = datasketches::update_array_of_doubles_sketch_alloc<palloc_allocator<double>>;
	using compact_aod_sketch_pg = datasketches::compact_array_of_doubles_sketch_alloc<palloc_allocator<double>>;
	using aod_union_pg = datasketches::array_of_doubles_union_alloc<palloc_allocator<double>>;
	// using the union policy in the intersection since this is how it is done in Druid
	using aod_intersection_pg = datasketches::array_of_doubles_intersection<datasketches::array_of_doubles_union_policy_alloc<palloc_allocator<double>>, palloc_allocator<double>>;
	using aod_a_not_b_pg = datasketches::array_of_doubles_a_not_b_alloc<palloc_allocator<double>>;

	std::ostream& operator<<(std::ostream& os, const datasketches::aod<palloc_allocator<double>>& v) {
	os << "(";
	for (size_t i = 0; i < v.size(); ++i) {
	if (i != 0) os << ", ";
	os << v[i];
	}
	os << ")";
	return os;
	}

	void* aod_sketch_new(unsigned num_values) {
	try {
	return new (palloc(sizeof(update_aod_sketch_pg))) update_aod_sketch_pg(update_aod_sketch_pg::builder(num_values).build());
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void* aod_sketch_new_lgk(unsigned num_values, unsigned lg_k) {
	try {
	return new (palloc(sizeof(update_aod_sketch_pg))) update_aod_sketch_pg(update_aod_sketch_pg::builder(num_values).set_lg_k(lg_k).build());
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void* aod_sketch_new_lgk_p(unsigned num_values, unsigned lg_k, float p) {
	try {
	return new (palloc(sizeof(update_aod_sketch_pg))) update_aod_sketch_pg(update_aod_sketch_pg::builder(num_values).set_lg_k(lg_k).set_p(p).build());
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void update_aod_sketch_delete(void* sketchptr) {
	try {
	static_cast<update_aod_sketch_pg*>(sketchptr)->~update_aod_sketch_pg();
	pfree(sketchptr);
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	}

	void compact_aod_sketch_delete(void* sketchptr) {
	try {
	static_cast<compact_aod_sketch_pg*>(sketchptr)->~compact_aod_sketch_pg();
	pfree(sketchptr);
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	}

	void aod_sketch_update(void* sketchptr, const void* data, unsigned length, const double* values) {
	try {
	static_cast<update_aod_sketch_pg*>(sketchptr)->update(data, length, values);
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	}

	void* aod_sketch_compact(void* sketchptr) {
	try {
	auto newptr = new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(static_cast<update_aod_sketch_pg*>(sketchptr)->compact());
	static_cast<update_aod_sketch_pg*>(sketchptr)->~update_aod_sketch_pg();
	pfree(sketchptr);
	return newptr;
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	double update_aod_sketch_get_estimate(const void* sketchptr) {
	try {
	return static_cast<const update_aod_sketch_pg*>(sketchptr)->get_estimate();
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	double compact_aod_sketch_get_estimate(const void* sketchptr) {
	try {
	return static_cast<const compact_aod_sketch_pg*>(sketchptr)->get_estimate();
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	Datum* aod_sketch_get_estimate_and_bounds(const void* sketchptr, unsigned num_std_devs) {
	try {
	Datum* est_and_bounds = (Datum) palloc(sizeof(Datum) 3);
	est_and_bounds[0] = pg_float8_get_datum(static_cast<const compact_aod_sketch_pg*>(sketchptr)->get_estimate());
	est_and_bounds[1] = pg_float8_get_datum(static_cast<const compact_aod_sketch_pg*>(sketchptr)->get_lower_bound(num_std_devs));
	est_and_bounds[2] = pg_float8_get_datum(static_cast<const compact_aod_sketch_pg*>(sketchptr)->get_upper_bound(num_std_devs));
	return est_and_bounds;
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	char* aod_sketch_to_string(const void* sketchptr, bool print_entries) {
	try {
	auto str = static_cast<const compact_aod_sketch_pg*>(sketchptr)->to_string(print_entries);
	const size_t len = str.length() + 1;
	char* buffer = (char*) palloc(len);
	strncpy(buffer, str.c_str(), len);
	return buffer;
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	ptr_with_size aod_sketch_serialize(const void* sketchptr, unsigned header_size) {
	try {
	ptr_with_size p;
	auto bytes = new (palloc(sizeof(compact_aod_sketch_pg::vector_bytes))) compact_aod_sketch_pg::vector_bytes(
	static_cast<const compact_aod_sketch_pg*>(sketchptr)->serialize(header_size)
	);
	p.ptr = bytes->data();
	p.size = bytes->size();
	return p;
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void* aod_sketch_deserialize(const char* buffer, unsigned length) {
	try {
	return new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(compact_aod_sketch_pg::deserialize(buffer, length));
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void* aod_union_new(unsigned num_values) {
	try {
	return new (palloc(sizeof(aod_union_pg))) aod_union_pg(aod_union_pg::builder(num_values).build());
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void* aod_union_new_lgk(unsigned num_values, unsigned lg_k) {
	try {
	return new (palloc(sizeof(aod_union_pg))) aod_union_pg(aod_union_pg::builder(num_values).set_lg_k(lg_k).build());
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void aod_union_delete(void* unionptr) {
	try {
	static_cast<aod_union_pg*>(unionptr)->~aod_union_pg();
	pfree(unionptr);
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	}

	void aod_union_update(void* unionptr, const void* sketchptr) {
	try {
	static_cast<aod_union_pg>(unionptr)->update(std::move(static_cast<const compact_aod_sketch_pg*>(sketchptr)));
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	}

	void* aod_union_get_result(const void* unionptr) {
	try {
	return new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(static_cast<const aod_union_pg*>(unionptr)->get_result());
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void* aod_intersection_new(unsigned num_values) {
	try {
	return new (palloc(sizeof(aod_intersection_pg))) aod_intersection_pg(datasketches::DEFAULT_SEED, num_values);
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void aod_intersection_delete(void* interptr) {
	try {
	static_cast<aod_intersection_pg*>(interptr)->~aod_intersection_pg();
	pfree(interptr);
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	}

	void aod_intersection_update(void* interptr, const void* sketchptr) {
	try {
	static_cast<aod_intersection_pg>(interptr)->update(static_cast<const compact_aod_sketch_pg*>(sketchptr));
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	}

	void* aod_intersection_get_result(const void* interptr) {
	try {
	return new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(static_cast<const aod_intersection_pg*>(interptr)->get_result());
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void* aod_a_not_b(const void* sketchptr1, const void* sketchptr2) {
	try {
	aod_a_not_b_pg a_not_b;
	return new (palloc(sizeof(compact_aod_sketch_pg))) compact_aod_sketch_pg(a_not_b.compute(
	static_cast<const compact_aod_sketch_pg>(sketchptr1),
	static_cast<const compact_aod_sketch_pg>(sketchptr2)
	));
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	void* aod_sketch_to_kll_float_sketch(const void* sketchptr, unsigned column_index, unsigned k) {
	try {
	auto kllptr = kll_float_sketch_new(k);
	for (const auto& entry: static_cast<const compact_aod_sketch_pg>(sketchptr)) {
	kll_float_sketch_update(kllptr, entry.second[column_index]);
	}
	return kllptr;
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	double t_test_unequal_sd(double m1, double v1, uint64_t n1, double m2, double v2, uint64_t n2) {
	double degrees_of_freedom = v1 / n1 + v2 / n2;
	degrees_of_freedom *= degrees_of_freedom;
	double t1 = v1 / n1;
	t1 *= t1;
	t1 /= (n1 - 1);
	double t2 = v2 / n2;
	t2 *= t2;
	t2 /= (n2 - 1);
	degrees_of_freedom /= (t1 + t2);
	double t_stat = (m1 - m2) / sqrt(v1 / n1 + v2 / n2);
	using boost::math::students_t;
	students_t distribution(degrees_of_freedom);
	return 2 * cdf(complement(distribution, fabs(t_stat))); // double to match 2-sided test in Java (commons-math3)
	}

	Datum* aod_sketch_students_t_test(const void* sketchptr1, const void* sketchptr2, unsigned* arr_len_out) {
	try {
	const auto& sketch1 = static_cast<const compact_aod_sketch_pg>(sketchptr1);
	const auto& sketch2 = static_cast<const compact_aod_sketch_pg>(sketchptr2);
	if (sketch1.get_num_values() != sketch2.get_num_values()) pg_error("aod_sketch_students_t_test: number of values mismatch");
	unsigned num_values = sketch1.get_num_values();
	Datum* p_values = (Datum) palloc(sizeof(Datum) num_values);
	*arr_len_out = num_values;

	using namespace boost::accumulators;
	using Accum = accumulator_set<double, stats<tag::mean, tag::variance>>;

	std::vector<Accum, palloc_allocator<Accum>> stats1(num_values);
	for (const auto& entry: sketch1) {
	for (unsigned i = 0; i < num_values; ++i) stats1[i](entry.second[i]);
	}

	std::vector<Accum, palloc_allocator<Accum>> stats2(num_values);
	for (const auto& entry: sketch2) {
	for (unsigned i = 0; i < num_values; ++i) stats2[i](entry.second[i]);
	}

	for (unsigned i = 0; i < num_values; ++i) {
	p_values[i] = pg_float8_get_datum(t_test_unequal_sd(
	mean(stats1[i]), variance(stats1[i]), sketch1.get_num_retained(),
	mean(stats2[i]), variance(stats2[i]), sketch2.get_num_retained()
	));
	}

	return p_values;
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	Datum* aod_sketch_to_means(const void* sketchptr, unsigned* arr_len_out) {
	try {
	const auto& sketch = static_cast<const compact_aod_sketch_pg>(sketchptr);
	unsigned num_values = sketch.get_num_values();
	Datum* means = (Datum) palloc(sizeof(Datum) num_values);
	*arr_len_out = num_values;

	using namespace boost::accumulators;
	using Accum = accumulator_set<double, stats<tag::mean>>;

	std::vector<Accum, palloc_allocator<Accum>> stats(num_values);
	for (const auto& entry: sketch) {
	for (unsigned i = 0; i < num_values; ++i) stats[i](entry.second[i]);
	}

	for (unsigned i = 0; i < num_values; ++i) {
	means[i] = pg_float8_get_datum(mean(stats[i]));
	}

	return means;
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}

	Datum* aod_sketch_to_variances(const void* sketchptr, unsigned* arr_len_out) {
	try {
	const auto& sketch = static_cast<const compact_aod_sketch_pg>(sketchptr);
	unsigned num_values = sketch.get_num_values();
	Datum* variances = (Datum) palloc(sizeof(Datum) num_values);
	*arr_len_out = num_values;

	using namespace boost::accumulators;
	using Accum = accumulator_set<double, stats<tag::variance>>;

	std::vector<Accum, palloc_allocator<Accum>> stats(num_values);
	for (const auto& entry: sketch) {
	for (unsigned i = 0; i < num_values; ++i) stats[i](entry.second[i]);
	}

	for (unsigned i = 0; i < num_values; ++i) {
	variances[i] = pg_float8_get_datum(variance(stats[i]));
	}

	return variances;
	} catch (std::exception& e) {
	pg_error(e.what());
	}
	pg_unreachable();
	}